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""" |
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Project Euler Problem 5: Smallest Multiple |
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========================================== |
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.. module:: solutions.problem5 |
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:synopsis: My solution to problem #5. |
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The source code for this problem can be |
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`found here <https://bitbucket.org/nekedome/project-euler/src/master/solutions/problem5.py>`_. |
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Problem Statement |
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################# |
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:math:`2520` is the smallest number that can be divided by each of the numbers from :math:`1` to :math:`10` without any |
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remainder. |
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What is the smallest positive number that is evenly divisible by all of the numbers from :math:`1` to :math:`20`? |
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Solution Discussion |
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################### |
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:math:`2520` is the smallest multiple of all numbers :math:`1` through :math:`10`, which means that any multiple of |
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:math:`2520` is also divisible by :math:`1` through :math:`10`. Any non-multiple will not be divisible by ALL numbers |
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:math:`1` through :math:`10`, so can be ignored. |
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Divisibility by the numbers :math:`11` through :math:`20` should be tested from highest (:math:`20`) to lowest |
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(:math:`11`) since higher divisors will rule more candidates out by in-divisibility. More explicitly, :math:`19` out of |
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every :math:`20` integers are not divisible by :math:`20` whereas only :math:`18` out of every :math:`19` integers are |
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not divisible by :math:`19`. This is akin to lazy boolean logic evaluation and avoids redundant computation. |
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Using these insights, a simple search strategy will find the answer very quickly. More specifically, search through |
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increasing multiples of :math:`2520` testing for divisibility by :math:`20,19,\\dots,11` - in that order. Identify the |
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first, and thus smallest such number. |
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Solution Implementation |
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####################### |
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.. literalinclude:: ../../solutions/problem5.py |
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:language: python |
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:lines: 43- |
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""" |
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from typing import List |
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def is_multiple(n: int, divisors: List[int]) -> bool: |
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""" Check whether :math:`n` is divisible by all of the given :math:`divisors` |
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:param n: the integer to check for divisibility |
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:param divisors: the divisors to test :math:`n` with |
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:return: whether :math:`n` is divisible by all :math:`divisors` or not |
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""" |
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for m in divisors: |
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if n % m != 0: |
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return False |
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return True |
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def solve(): |
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""" Compute the answer to Project Euler's problem #5 """ |
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divisors = [20, 19, 18, 17, 16, 15, 14, 13, 12, 11] # reverse order |
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n = 2520 # start our search at 2520 |
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while not is_multiple(n, divisors): |
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n += 2520 # increment our search by 2520 at a time |
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return n |
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expected_answer = 232792560 |
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Bill
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